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Alexander Milov for the PHENIX Collaboration

Multi-particle decays of light mesons measured at RHIC by PHENIX. Alexander Milov for the PHENIX Collaboration. Outline. What do we learn from ω ,  & K Analysis: PHENIX detector Acceptance Trigger efficiency Raw data Results: Spectra Cross-checks Particle Ratios

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Alexander Milov for the PHENIX Collaboration

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  1. Multi-particle decays of light mesons measured at RHIC by PHENIX Alexander Milov for the PHENIX Collaboration Alexander Milov DIS07 Munich Germany Apr,19 2007

  2. Outline • What do we learn from ω, & K • Analysis: • PHENIX detector • Acceptance • Trigger efficiency • Raw data • Results: • Spectra • Cross-checks • Particle Ratios • Nuclear modification factors RAB • Summary Alexander Milov DIS07 Munich Germany Apr,19 2007

  3. Motivation What can we learn from high pT spectra of ω, & K • In p+p • Parton distribution function of the proton. • Fragmentation functions • Test of pQCD • Strangeness content of the event (K) • Vector-to-pseudoscalar particle ratio (ω) • In Heavy Ions collisions: • Nuclear modification factors • An insight at the Chiral Symmetry Restoration (ω) Alexander Milov DIS07 Munich Germany Apr,19 2007

  4. PHENIX Experiment BBC (vertex) dz = 0.5cm… 2cm BBC (trigger) ε = 50%… 92% DC/PC1 (tracking) dpT/pT ~ 1.0%•pT + 0.7% EMC (calorimetric) dE/E ~ 8.1%/√E + 3.0% EMC (t.o.f.) dτ ~ 500 ns EMC (γ-trigger) 0.4GeV… 2.5GeV PC3 (matching) 2-4 mm ω 0     0 BR = 8.90  0.25%  0+- BR = 89.1  0.7%   0+- BR = 22.6  0.4% K0S 00 BR = 31.1  0.2%     BR = 39.4  0.3% K± using ToF K0S +- BR = 69.0  0.2% PHENIX acceptance : -0.35 < h < 0.35 2 x 90o for two arms Alexander Milov DIS07 Munich Germany Apr,19 2007

  5. PHENIX Experiment BBC (vertex) dz = 0.5cm… 2cm BBC (trigger) ε = 50%… 92% DC/PC1 (tracking) dpT/pT ~ 1.0%•pT + 0.7% EMC (calorimetric) dE/E ~ 8.1%/√E + 3.0% EMC (t.o.f.) dτ ~ 500 ns EMC (γ-trigger) 0.4GeV… 2.5GeV PC3 (matching) 2-4 mm ω,η 0   + -  0 BR = 8.90  0.25%  0+- BR = 89.1  0.7%   0+- BR = 22.6  0.4% K0S 00 BR = 31.1  0.2%     BR = 39.4  0.3% K± using ToF K0S +- BR = 69.0  0.2% PHENIX acceptance : -0.35 < h < 0.35 2 x 90o for two arms Alexander Milov DIS07 Munich Germany Apr,19 2007

  6. PHENIX Experiment BBC (vertex) dz = 0.5cm… 2cm BBC (trigger) ε = 50%… 92% DC/PC1 (tracking) dpT/pT ~ 1.0%•pT + 0.7% EMC (calorimetric) dE/E ~ 8.1%/√E + 3.0% EMC (t.o.f.) dτ ~ 500 ns EMC (γ-trigger) 0.4GeV… 2.5GeV PC3 (matching) 2-4 mm KS 0    0   0 BR = 8.90  0.25%  0+- BR = 89.1  0.7%   0+- BR = 22.6  0.4% K0S 00 BR = 31.1  0.2%     BR = 39.4  0.3% K± using ToF K0S +- BR = 69.0  0.2% PHENIX acceptance : -0.35 < h < 0.35 2 x 90o for two arms Alexander Milov DIS07 Munich Germany Apr,19 2007

  7. Phase space density 0+-ω0+- All Accepted All Accepted Ekin 0 flat Ekin + Ekin - real Taking phase space into account is absolutely crucial to get the results right. In PHENIX acceptance difference can reach 40% Alexander Milov DIS07 Munich Germany Apr,19 2007

  8. Gamma trigger efficiency daughters parents Gamma-trigger efficiency must be worked out very precisely. Because of the multi-particle final state even very high pT of are affected by the efficiency rising region. Comparison to Minimum Bias trigger sample is very important. online PRC75 (2007) 024909 Alexander Milov DIS07 Munich Germany Apr,19 2007

  9. Acceptances geometry 0+-ω0+- 0 K0S 00 nucl-ex/0702046 (QM2006) trigger combined Efficiencies are very different for all decay modes, but certain similarities can be seen. Alexander Milov DIS07 Munich Germany Apr,19 2007

  10. Raw yields 0 K0S 00 ,ω0+- ω ω K p+p η ? ? Au+Au PHENIX has first measurement of ω in p+p,d+Au & Au+Au and measurement of K0S at high pT in p+p and d+Au Alexander Milov DIS07 Munich Germany Apr,19 2007

  11. ω - meson spectra p+p d+Au Au+Au ω K nucl-ex/0611031 nucl-ex/0702022 (QM2006) ? nucl-ex/0702046 (QM2006) PHENIX mapped out high pTω in p+p, d+Au & produced a first result in Au+Au K0S is measured in p+p and d+Au Alexander Milov DIS07 Munich Germany Apr,19 2007

  12. Result consistency checks Agree   nucl-ex/0611031 accepted to PRC nucl-ex/0702022 (QM2006) Alexander Milov DIS07 Munich Germany Apr,19 2007

  13. Result consistency checks Similar analysis Agree  Agree    PRC75 (2007) 024909 Alexander Milov DIS07 Munich Germany Apr,19 2007

  14. Result consistency checks Similar analysis Similar analysis Agree  K Agree Agree  K   nucl-ex/0702046 (QM2006) Alexander Milov DIS07 Munich Germany Apr,19 2007

  15. η,K / 0ratio  2 K0S 00 PRC75 (2007) 024909 nucl-ex/0702046 (QM2006) Alexander Milov DIS07 Munich Germany Apr,19 2007

  16. ω/0ratio ω0+-ω0 nucl-ex/0702046 (QM2006) nucl-ex/0611031 acc. to PRC /0 inp+p Run3 @ √s= 200 GeV = 0.85 ± 0.05(stat) ± 0.09(syst)  nucl-ex/0611031 (PRC) /0 inp+p Run5 @ √s = 200 GeV = 0.81 ± 0.02(stat) ± 0.07(syst)  nucl-ex/0702046 (QM) /0 ind+AuRun3 @ √sNN = 200 GeV = 0.94 ± 0.08(stat) ± 0.12(syst)  nucl-ex/0611031 (PRC) Alexander Milov DIS07 Munich Germany Apr,19 2007

  17. Nuclear Modification Factor dNA+A/dpT <Ncoll> dNp+p/dpT RA+A= nucl-ex/0611031 RdA for all light mesons are around 1 RAA for ω at high pT is <1, same as other mesons Alexander Milov DIS07 Munich Germany Apr,19 2007

  18. Summary • PHENIX measured ω,& K0production in hadronic channels, providing pioneering and robust measurement for ω and K. • All mesons behave consistently with other mesons in different collision systems at different energies. • The baseline measurements (p+p √s=200GeV) exist in hadronic channels and are being analyzed in leptonic channel using accumulated data. • Current analysis is in progress and needs improvement on the background conditions and more data. • In future we plan to finalize ω data, reduceKS systematic errors to address π/K/p separation. The multi-particle approach can reveal more information than is currently analyzed. Alexander Milov DIS07 Munich Germany Apr,19 2007

  19. My research is supported by the Goldhaber Fellowship at BNL with funds provided by Brookhaven Science Associates. Alexander Milov DIS07 Munich Germany Apr,19 2007

  20. Backups Alexander Milov DIS07 Munich Germany Apr,19 2007

  21. Mass peak shape p+p d+Au Au+Au ω STAR: PRL 92, 092301 (2004) nucl-ex/0611031 accepted to PRC ω measurements show no evidence of mass modification at high pT Alexander Milov DIS07 Munich Germany Apr,19 2007

  22. Backgrounds: e.g. 0 0 real fake  0 0 ω ω  fake 0 0 ?  all mixed residual Mixed event technique takes care only of uncorrelated combinatorial background. Correlated background can be explained, but cannot be efficiently eliminated. We rely on fitting to get the results. Alexander Milov DIS07 Munich Germany Apr,19 2007

  23. Result consistency checks Similar analysis Similar analysis Agree  K Agree Agree  K   √ Run3 and Run5 data agree Minimum Bias and Trigger data agree 3 channel and 3 channelagree 3 channeland 2 channel agree K4 channeland K2 channel, ToF agree √ √ √ √ In spite of difficulties of the new approach the method is robust and the results are consistent. Alexander Milov DIS07 Munich Germany Apr,19 2007

  24. ω 0 invariant mass spectra e+p e+C CBELSA/TAPS PHENIX 0e+p Ee =2.8 GeV e+CEe =2.8 GeV M.Lutz Nucl. Phys. A706 431 (2002) |p|< 500 MeV/c |p|< 500 MeV/c Preliminary shown by V. Metag on Nov.16, 2006 Plenary ref. to D. Trnka (Gießen) priv. com.c 0p+p √s=200 GeV   0  peak Other peaks seen in p+p… Au+Au Correlated background reproduced from the data Part, not all of it!!! Peaks at low masses in the channel may be in part , explained by correlated background from eta, pi0 Ks … Alexander Milov DIS07 Munich Germany Apr,19 2007

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